DE2604038A1 - PISTONS FOR COMBUSTION ENGINES - Google Patents

Description

I) K. EJtICH NEWLY BUILT _t

ΓΑΤΙ5Λ ^τ ΤΛΝ \ νΑΤΛ 'tewifok <oku) 224Λ37 c. 202501

R »iftvrurv -r - T> o <iTT <Arir τι TEIXOJtAHHAI) IlESSE:

8 MUNICH -C I OMiACU 3t ^ bavaWAPAIESI MUNICH

ZWEH! IlttCKEN6TBAS8E JO 2 6 O A U 3 O ΤΕΪ-ΕΧ 5-Ζ41Ϊ1

(ΚΊ; It IJ K BKM »KUTSCH K K ΓΛΤ EIfTAM T)

February 3, 1976 1A-3597

description

to the patent application

PERKINS ENGINES LIMITED, London, England

relating to pistons for internal combustion engines

The invention relates to pistons for internal combustion engines.

It is well known that the high temperatures that result in the bottom of the pistons of internal combustion engines during operation prevail, to the fact that the piston head is subjected to a substantially uniform compressive stress, which a Bending of the central part of the piston crown results in upward. Also generated in a piston that by a piston pin is supported, the gas pressure, which is believed to be uniform over the entire area of the piston head acts, in the piston head a downward bending moment and a compressive stress along the Axis of the piston pin as well as a bending moment acting in the opposite direction and a corresponding tensile stress along a line running transversely to the piston pin axis.

609832/0739

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hank nCs'ciiEx lo / iteoo - jiav2: iii> chi: teskixsihxk ki'xckkx sair.oo

-2- 26 N L 038

These phenomena cannot be avoided when operating a known type of reciprocating piston engine. In particular in the case of pistons in which the piston head is provided with a depression forming a combustion chamber, these stresses can lead to damage to the piston. Especially when the recess forming the combustion chamber is provided with an overhanging lip, there is a risk that the compressive stresses due to the thermal stress and the gas forces will cause the metal of the piston crown and / or said lip to yield as soon as the piston becomes hot, and that the metal tears open as a result of the tensile stress caused by thermal means when the piston cools.

The invention is based on the object of creating a piston for internal combustion engines in which the occurrence such cracks can be avoided by taking appropriate measures.

To solve this problem, a piston has been created by the invention, which has a piston head, also an adjoining piston skirt, a first piston pin boss, which is connected to the piston head on one side of the piston, and a second piston pin boss, which is connected to the Piston crown is connected on the opposite side of the piston, and in which there are reinforcement sections which are connected to the piston skirt, go into it and connect one side of the piston to the other side.

609832/0739

ORIGINAL INSPECTED

Here, the piston head is preferably provided with a combustion chamber which has an overhanging lip, and further each of said reinforcements is preferably with the Piston skirt continuously formed so that it extends from the first piston pin boss to the second piston pin boss extends.

The invention and advantageous details of the invention are illustrated below with reference to schematic drawings of a Embodiment explained in more detail. It shows:

Fig. I is a section through a piston along the line I-I in Fig. 2;

FIG. 2 shows the top view of the piston according to FIG. 1 when viewed in the direction of arrow II in FIG. 3;

3 shows a section through the piston according to FIGS. 1 and 2 longitudinally

the line III-III in Fig. 2;

4 shows a section through a second embodiment of a Piston along the line IV-IV in Fig. 6;

Fig. 5 is a section through the piston of FIG. 4 along the Line V-V in Figure 4; and

6 shows a section through the piston according to FIGS. 4 and 5 along the line VI-VI in FIG. 5.

In Fig. 1, a piston 1 is shown, to which a piston head 2 belongs, which has a combustion chamber 3 with an overhanging Has lip 4. At the piston head 2 includes

609832/0739

2604Q38

Piston skirt 5 on which a first piston pin boss 6 and a second piston pin boss 7 are formed, which quickly merge into the piston skirt 5 as well as into the piston crown 2. The piston pin bosses 6 and 7 have bores 6a and 7a, which extend along a common axis 10.

Two axes xx and yy are shown in FIG. 2, and the arrows S ™ and S "indicate the direction of the stresses that occur at points X and Y when the temperature increases or as a result of the gas pressure. The arrows S "are directed towards each other at both points X and Y on the lip 4 and indicate the compressive stresses which are present at these points when the piston is hot. At the point X, the arrows S _{G point} towards one another, and they indicate the compressive stresses which occur when the piston is stressed by gas forces. At this point compressive stresses occur, since the gas forces are absorbed by the piston pin bosses 6 and 7, which are separated by a transverse distance, so that a bending moment occurs which tends to deflect the piston crown downward, as shown in FIG. 1 with the arrows M _{G is} indicated. At the point Y, the arrows S _Q are directed away from each other and they represent tensile stresses which occur as soon as the piston is stressed by gas forces. At this point tensile stresses occur because the piston pin bosses act as an abutment, so that an oppositely directed bending moment arises.

609832/0739

Since a tensile stress S "and a compressive stress S _T occur at point Y, the magnitude of the resulting compressive stress decreases at this point, while at point X the stresses S" and S_ add up.

According to the invention, the stress S _G at the point X is reduced by increasing the rigidity of the piston. For this purpose, two reinforcing ribs 8 and 9 are cast onto the inner surface of the piston skirt 5, which are shaped so that the ends of both ribs merge into the adjacent piston pin bosses 6 and 7. These reinforcing ribs act as tension members to hold the respective opposite sides of the piston skirt 5 together and thereby reduce the compressive stresses which occur along the entire axis xx and in particular at the endangered point X on the lip 4.

In Fig. 3, the preferred arrangement of the reinforcing ribs 8 and 9 is shown with solid lines, and at 8a, 9a and at 8b, 9b are further possibilities for the arrangement of the reinforcement ribs indicated with dashed lines. Should the Reinforcing ribs 8 and 9 are lower than the piston pin bosses 6 and 7, they can be designed so that their ends interlock pass over, and that they form an endless ring-shaped lip.

It can be seen that the ribs 8 and 9 are tension members through which, when the Piston the parts of the piston skirt 5 facing away from one another

609832/0739

260-038

be held together in such a way that their flexibility is limited.

4, 5 and 6 is another embodiment of the invention shown.

According to FIG. 4, the piston 1 shown has all of the features 2 to 2 described above with reference to FIGS. 1 to 3 7, and it is also provided with a lower piston ring groove 20 near the lower end of the piston skirt 5. the Cross-hatched areas denote the imaginary arrangement of the piston pin bosses 6 and 7 connecting with one another Reinforcing sections 21 and 22. The reinforcing sections 21 and 22 are formed by transition sections 23 and connected to the piston skirt 5. Further transition sections 25 and 26 connect the cross-hatched areas 21 and 22 with the underside of the piston head 2, so that, according to FIG. 4, a uniformly curved curvature 28 is present. The reinforcement sections 21 and 22 are at the same height as the axis 10 of the bores 6a and 7a of the piston pin bosses 6 and 7, and the bulge 28 ends at a slightly lower level. According to Fig. 4 you can see the lower part of the arch 28 so that their walls are inclined outwards by a small angle of e.g. 2 ° with respect to a vertical axis so that the piston can be easily removed from the mold after casting. Fig. 5 shows that the inner end faces 30 and 31 of the piston pin bosses 6 and 7 are inclined upwards towards one another to the associated, not shown here to be able to accommodate the upper end of a connecting rod.

609832/07 39

~ ⁷ "2 6 ΰ 4 J 3 8

The advantages and disadvantages of this design are known. One of its advantages is that the compressive stress Sg, which is caused by the action of the gas forces at the point X in FIG. According to Fig. 5 is the Piston 1 provided with drilled oil channels 33 and 34, which are each arranged at such a height that they Connect oil scraper grooves 36 and 20 to the interior of the piston.

6 shows the design of the piston according to the invention more clearly recognize. The reinforcement sections 21 and 22 are shown in section in FIG. 6; you can use them as tension members consider, which are associated with the lower part of the piston 1 and serve to collapse the central part to counteract the piston crown 2.

In comparison to the piston according to FIG. 1, the piston shows Fig. 4 shows a cost-saving feature, which is that there are no undercuts on the inside of the piston are present, so that the piston can be cast at a lower cost. The lack of such undercuts It also enables the piston to be wetting with a tool to forge, the shape of which corresponds to the internal shape of the piston. The piston according to FIG. 1 requires a higher one Costly because it can only be cast using cores, but this is a piston from particularly high strength.

609332/0739

In the piston according to FIG. 1, the ribs 8 and 9 do not need to be connected to the piston skirt 5 over their entire length but they can only be connected to or attached to the piston skirt at their ends.

If the recess 3 of the piston head 2 is provided with an additional device, for example an insert 40, there may still be the risk that cracks will arise at a certain distance from the edge of the combustion chamber, and in this case too the invention offers the possibility of to remedy this to a certain extent. This can be seen from FIG. 1, where an insert 40 made of a different material is shown on the left-hand side. With such a construction, the stresses which occur at the point Z, which is closer to the edge of the piston crown "2 than the point X, can still become so high that they could lead to the formation of cracks.

Expectations:

809832/0739

Claims (9)

EXPECTATIONS ' 1. / Piston for an internal combustion engine with a piston crown, a piston skirt adjoining the piston crown, a first piston pin boss connected to the piston crown on one side of the piston and a second piston pin boss connected to the piston crown on the opposite side of the piston, in which each piston pin boss has a bore for receiving the associated piston pin, characterized in that reinforcement sections (8, 9; 21, 22) are provided, each of which is attached to the piston skirt (5), merges into the piston skirt and one side of the piston in each case connects to the opposite side of the piston. 2. Piston according to claim 1, characterized in that the piston head (2) with an overhanging lip (4) having combustion chamber (3) is provided. 3. Piston according to claim 1 _# characterized in that each reinforcing section (S, 9; 21,22) is formed integrally with the Eolben jacket (5) and extends from the first piston pin boss (6) to the second piston pin boss (7). 609832/0739 1IA.KK nCxcUEK το / ΐββο »-», vykuikchk v-KKKiNSHAXK MfxciiKif sessoo 4. Piston according to claim 3, characterized in that each reinforcement section (8, 9; 21, 22) on its upper side merges quickly into the underside (27) of the Koibenbodens (2). 5. Piston according to claim 4, characterized in that each Yerstärkungsabschnitt (8, 9; 21, 22) when viewed of the piston in a sectional plane which is at right angles to the axis (10) of the bores (6a, 7a) of the piston pin bosses (6, 7) runs, on its upper side in the form of a uniform curvature (28) in the underside (27) of the piston head (2) passes and is arranged between the piston pin bosses. 6. Piston according to claim 5, characterized in that the lowermost ends of the rapid curvature (28) are lower than the axis (10) of the bores (6a, 7a) of the piston pin bosses (6, 7) receiving the piston pin. 7. Piston according to claim 6, characterized in that the interior of the piston is shaped so that it does not have any undercuts having. 8. Piston according to claim 7, characterized in that the piston head (2) with a combustion chamber (3) in the form of a re-entrant recess is provided. 9. Piston according to claim 7, characterized in that the inner end faces (30, 31) of the Eolttenbolzenaugen (6, 7) in the direction of the piston head (2) are inclined oh & n and inward to accommodate a tapered piston pin eye of a connecting rod to enable. §09832 / 0731 Blank page